KR100450204B1 - Protection circuit of Plasma display panel - Google Patents

Abstract

The present invention relates to a protection circuit of a plasma display panel, wherein the protection circuit of the plasma display panel of the present invention includes an overheat detector for sensing an internal temperature of a set on a power board of a plasma display panel, and a detection result of the overheat detector. Compared to the reference value already set in the and the overheat determination unit for generating and outputting the overheat protection operation signal when the comparison result is in the overheat state, and when the overheat protection operation signal is transmitted from the overheat determination unit to supply the voltage to the power board Over-temperature protection to shut off.

Accordingly, the present invention can sense the temperature in the power board of the plasma display panel set to perform the overheat protection operation at abnormal temperature rise to prevent the breakage of the components and improve the quality of the plasma display panel set, and also use the inexpensive components By configuring the circuit, the circuit of the plasma display panel set for the overheat protection operation is simplified, and the cost burden can be minimized.

Description

Protection circuit of plasma display panel

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a protection circuit of a plasma display panel, and more particularly, to a protection circuit of a plasma display panel capable of preventing destruction of a power supply board and various components when an abnormal temperature occurs in a power supply board of a plasma display panel.

The conventional plasma display protection circuit is composed of three circuits: over current protection, over voltage protection, and under voltage protection to protect the power board.

The protection circuits mentioned above sense the voltage and current of each output and perform protection on the power board in case of abnormality such as overcurrent, overvoltage and undervoltage. Due to the protection operation of the plasma display protection circuit, the set of plasma display panels is controlled on / off.

In this way, problems caused by non-ideal current and voltage, which are one of the main problems of the plasma display panel, can be solved.

However, among other problems of the plasma display panel, the heat generation problem of the SET is not provided with a proper protection circuit, and when the temperature inside the power board rises, the temperature inside the set rises, resulting in breakage of circuit components, resulting in abnormal operation of the plasma display panel. There is a problem that causes.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and an object thereof is to detect a temperature in a set of a plasma display panel and to control an on / off operation of the set when an abnormal temperature occurs. To provide.

1 is a circuit diagram showing the configuration of a protection circuit of a plasma display panel according to an embodiment of the present invention.

2 is a diagram illustrating a front end circuit of a FPC block which is a part of a plasma display panel.

According to a feature of the protection circuit of the plasma display panel according to the present invention for solving the above problems, an overheat detector for sensing the internal temperature of the set on the power board of the plasma display panel, the detection result of the overheat detector in the system An overheat determination unit that generates and outputs an overheat protection operation signal when the comparison result is in an overheat state, and cuts off the supply of voltage to the power board when the overheat protection operation signal is transmitted from the overheat determination unit. It includes overheat protection.

The overheat detector is provided with a negative temperature characteristic thermistor at a temperature measuring point of the power board.

The overheat determination unit is on / off by a comparison unit for outputting a low / high output signal by comparing the detection result of the overheat detection unit with a reference value, and an overheat protection operation by the overheat protection unit. It includes a transmission unit for transmitting a signal.

The comparator comprises a plurality of resistors and a comparator. The transfer unit includes a photocoupler in which the comparator is turned off when the low output signal is output and the comparator is turned on when the high output signal is output. The overheat protection is composed of a plurality of resistors and a silicon controlled rectifier.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a circuit diagram showing the configuration of a protection circuit of a plasma display panel according to an embodiment of the present invention.

As shown in FIG. 1, a protection circuit according to an embodiment of the present invention includes a result of detection of an overheat detector 10, an overheat detector 10 that senses an internal temperature of a set of a plasma display panel, and a reference value already set in a system. The overheat protection unit 20 for outputting an overheat protection operation signal is compared, and the overheat protection unit 30 for shutting down the set by the overheat protection operation signal of the overheat determination unit 20.

The overheat detection unit 10 locates the negative resistance characteristic thermistor (RT) whose resistance value decreases when the temperature rises at a temperature measuring point suitable for sensing the temperature inside the set on the power board.

At this time, the control temperature inside the set for the protection circuit of the plasma display panel to perform the overheat protection operation can be appropriately set by changing the resistance value of the thermistor RT and the resistance value of the R1 resistance.

The overheat judging unit 20 includes a comparator 21 composed of resistors R2 and R3 and a comparator U1, and a transfer unit 23.

In the above, the non-inverting terminal of the comparator U1 divides the resistance value of the thermistor RT by R1 to input the non-inverting input voltage, and the inverting input voltage of the comparator U1 is the inverting input voltage which is the reference value by R2 and R3. Is input.

Therefore, the comparator U1 compares the non-inverting input voltage with the inverting input voltage, and the low output signal when the non-inverting input voltage is set lower than the inverting input voltage, and conversely, the high output signal when the non-inverting input voltage is set higher than the inverting input voltage. Outputs

On the other hand, the transmission unit 23 is turned off by the low output signal of the comparator (U1), is turned on by the high output signal of the comparator (U1) to transfer the overheat protection operation signal to the overheat protection unit 30 And a coupler PT.

The overheat protection unit 30 includes a silicon controlled rectifier (SCR) that is on when the photocoupler is turned on and the overheat protection operation signal is transmitted. At this time, when the silicon control rectifier (SCR) is turned on, the overheat protection unit 30 performs a protection operation to cut off the supply of standby power 5VSB and to close the set.

Here, the protection operation for closing the set by the overheat protection unit 30 is as follows.

The power board of the plasma display panel has a standby voltage (5VSB) portion that generates standby power using a DC power source rectifying AC voltage directly on the primary side, and a PFC (PFC) that generates a constant DC power source by rectifying the AC voltage. It has a block portion.

2 is a diagram illustrating a front end circuit of a FPC block which is a part of a plasma display panel.

As shown in FIG. 2, the front end circuit of the FPC block includes a bridge diode BD for rectifying and transferring an AC voltage to the FPC block, and a first relay SW1 and a second relay SW2.

The first relay SW1 is connected in parallel with an inrush resistor for controlling the inrush current, and the relay_on relayed by the FPC control circuit when the DC block is operated and a constant DC power is output. ) It operates by receiving signal.

Meanwhile, the second relay SW2 operates by receiving a relay operation signal from a microcomputer in the image board of the plasma display panel.

At this time, both the first relay SW1 and the second relay SW2 use the standby voltage as the supply power Vcc, and the supply voltage of the microcomputer of the image board also uses the standby voltage.

Therefore, when the gate of the silicon control rectifier (SCR) is turned on by the overheat protection operation signal, the standby voltage is blocked from flowing into the image board, and thus the relays SW1 and SW2 of the power board are Open and the set is closed.

The operation of the protection circuit of the plasma display panel according to the embodiment of the present invention configured as described above is as follows.

First, when the internal temperature of the set is normal, the thermistor (RT) resistance value maintains a high resistance value, and the voltage is distributed to R1. The divided voltage is input to the non-inverting terminal of the comparator U1.

Then, the comparator U1 compares the non-inverting input voltage and the inverting input voltage with each other to maintain the low output signal since the non-inverting input voltage is set lower than the inverting input voltage.

The photocoupler PT is turned off by the low output signal of the comparator U1. As a result, the overheat protection operation signal is not generated, and thus the overheat protection part 30 does not perform the overheat protection operation.

Next, when the temperature inside the set rises outside the normal state, the temperature of the thermistor RT increases, and the resistance value of the thermistor RT decreases due to the temperature rise of the thermistor RT.

Therefore, the non-inverting terminal of the comparator U1 receives the divided voltage higher than the normal state as the non-inverting input voltage because the resistance value of the thermistor RT is lowered through R1. Therefore, the comparator U1 outputs a high output signal by comparing the non-inverting input voltage with the inverting input voltage, and the photocoupler PT is turned on by the high output signal of the comparator U1.

In the above, when the photocoupler PT is turned on, the gate of the silicon controlled rectifier SCR of the overheat protection part 30 is turned on, thereby interrupting the supply of the standby voltage.

The drawings and detailed description of the invention are merely exemplary of the invention, which are used for the purpose of illustrating the invention only and are not intended to limit the scope of the invention as defined in the appended claims or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

The protection circuit of the plasma display panel according to the present invention configured as described above senses the temperature in the power board of the plasma display panel set to perform an overheating protection operation at an abnormal temperature rise, thereby preventing damage to the parts and the quality of the plasma display panel set. There is an effect to improve.

In addition, the protection circuit of the plasma display panel according to the present invention has an effect that the circuit of the plasma display panel set for overheat protection operation can be simplified and the cost can be minimized by constructing the circuit using inexpensive components.

Claims (6)

An overheat detector configured to locate an internal temperature of the set at a temperature measurement point suitable for sensing an internal temperature of the set on a power board of the plasma display panel; An overheat determination unit for comparing the detection result of the overheat detection unit with a reference value already set in the system and generating and outputting an overheat protection operation signal when the comparison result is an overheat state; And If the overheat protection operation signal is transmitted from the overheat determination unit includes an overheat protection unit for shutting off the standby voltage supply to the power board, The power board includes a standby voltage portion for generating standby power by using a DC power rectifying AC voltage directly, a first relay for rectifying AC voltage to generate a constant DC power, and using the standby voltage as a supply power. 2. A protection circuit of a plasma display panel including a PFC block portion including a relay. The method of claim 1, The overheat detection unit is a protection circuit of the plasma display panel, characterized in that the negative temperature characteristic thermistor (Negative Temperature Characteristic Thermistor) is installed at the temperature measuring point of the power board. The method of claim 1, The overheat determination unit, A comparator for outputting a low / high output signal by comparing the detection result with the reference value with each other; And And a transfer unit configured to be turned on / off by the low / high output signal of the comparator to transmit an overheat protection operation signal to the overheat protection unit. The method of claim 3, wherein And the comparator comprises a plurality of resistors and a comparator. The method of claim 3, wherein And the transfer unit is configured to include a photo coupler in which the comparator is turned off when the low output signal is output and the comparator is turned on when the high output signal is output. The method of claim 1, And the overheat protection part includes a plurality of resistors and a silicon controlled rectifier.